钱家店铀矿床钱Ⅴ铀矿床资源预测

doi:10.13278/j.cnki.jjuese.20190226

摘要/Abstract

摘要： 为建立钱家店铀矿床资源量评价体系，实现钱Ⅴ铀矿床资源量的定量预测，对钱家店砂岩型铀矿床特征及控矿因素进行分析，认为控制资源量的要素为铀源、构造、层间氧化、还原介质、沉积储层和沉积结构。应用资源丰度类比法原理对钱家店铀矿床进行了系统评价，将钱Ⅱ和钱Ⅳ铀矿床11个矿层单元定为刻度区。通过类比参数体系建立、刻度区丰度模型建立、预测区类比参数求取、有利含矿区圈定、资源量计算5个方面的研究，定量预测了钱Ⅴ矿床资源量，认为钱Ⅴ块铀矿床具有形成大型铀矿床的资源潜力。

关键词: 类比参数, 刻度区, 丰度模型, 铀资源量预测

Abstract: In order to establish the resource evaluation system of Qianjiadian uranium Orefield, and realize the quantitative assessment of the resource of QianⅤ uranium deposit, the resource abundance model is systematically constructed by using 11 ore bed units of the Qian Ⅱ and Qian Ⅳ as model units. It is considered that the main elements controlling the amount of resources are uranium source, stracture, interlayer oxidation, reducing medium, sedimentary reservoir and sedimentary structure. Through the establishment of abundance model of the calibration units, the analogy parameters of the assessment area, the favorable mining area are delineated. The amount of Qian Ⅴ deposit resources is calculated. The arthors consider that QianⅤ uranium deposit has the potential to form a large-scale uranium deposit.

Key words: analogy parameter, scale area, abundance model, uranium resource prediction

中图分类号:

P619.14

雷安贵, 陈振岩, 魏达, 杨松林. 钱家店铀矿床钱Ⅴ铀矿床资源预测[J]. 吉林大学学报(地球科学版), 2020, 50(6): 1675-1684.

Lei Angui, Chen Zhenyan, Wei Da, Yang Songlin. Resource Assessment of Qian Ⅴ Uranium Deposite in Qianjiadian Uranium Orefield[J]. Journal of Jilin University(Earth Science Edition), 2020, 50(6): 1675-1684.

参考文献

[1] 叶天竺.矿床模型综合地质信息预测技术方法理论框架[J].吉林大学学报(地球科学版),2013,23(4):1054-1070. Ye Tianzhu. Theoretical Framework of Methodology of Deposit Modeling and Integrated Geological Information for Mineral Resource Potential Assessment[J].Journal of Jilin University(Earth Science Edition), 2013,23(4):1054-1070.
[2] 刘武生,贾立城.应用矿床模型综合地质信息法评价砂岩型铀资源潜力[J]. 铀矿地质,2011,27(6):352-356. Liu Wusheng, Jia Licheng. Potential Resource Evaluation of Sandstone-Type Uranium by the Method of Comprehensive Geological Information of Typical Deposit[J].Uranium Geology,2011,27(6):352-356.
[3] 刘武生,贾立城, 刘红旭.全国砂岩型铀矿资源潜力评价[J].铀矿地质,2012,28(6):349-354. Liu Wusheng, Jia Licheng, Liu Hongxu. The Potential of Sandstone-Hosted Resources in China[J].Uranium Geology,2012,28(6):349-354.
[4] 肖克炎,叶天竺,李景朝,等.矿床模型综合地质信息预测资源量的估算法[J].地质通报,2010, 29(10):1405-1412. Xiao Keyan,Ye Tianzhu,Li Jingchao,et al. Integrated Geo-Information Modeling Reserve Estimation Method[J]. Geological Bulletin of China, 2010, 29(10):1405-1412.
[5] 李晓光,单俊峰,陈永成.辽河油田精细勘探[M].北京:石油工业出版社,2017. Li Xiaoguang, Shan Junfeng, Chen Yongcheng. Fine Explortion of Liaohe Oilfield[M]. Beijing:Oil Industry Press,2017.
[6] 胡森清,赵陵. 南盘江盆地油气资源评价中类比法的应用[J].中国石油勘探, 2002,7(4):82-86. Hu Senqing, Zhao Ling. The Application of Analogy in the Evaluation of Oil and Gas Resource in Nanpanjiang Basin[J]. China Petroleum Exploration,2002,7(4):82-86.
[7] 权建平,樊太亮,徐高中,等.中国北方盆地中油气运移对砂岩型铀矿成矿作用讨论[J].中国地质,2007,34(3):470-475. Quan Jianping, Fan Tailiang, Xu Gaozhong, et al. Effects of Hydrocarbon Migration on Sandstone-Type Uranium Mineraliza in Basins of Northern China[J].Geology in China, 2007,34(3):470-475.
[8] 李胜祥,欧光习,韩效忠,等.伊犁盆地油气与地浸砂岩型铀矿成矿关系研究[J].地质学报,2006,80(1):112-116. Li Shengxiang,Ou Guangxi, Han Xiaozhong,et al. Study on the Relationship Between Oil-Gas and Ore-Formation of the In-Situ Leachable Sandstone-Type Uranium Deposit in Yili Basin[J]. Acta Geology Sinica,2006,80(1):112-116.
[9] 张成,解习农,郭秀蓉,等.渤中坳陷大型油气系统输导体系及其对油气成藏控制[J].地球科学:中国地质大学学报,2013,38(4):807-815. Zhang Cheng,Xie Xinong, Guo Xiurong,et al. Pathway System of Large-Scale Petroleum System and Its Controls on Hydrocarbon Accumulation in the Bozhong Sub-Basin Bohai Bay Basin[J].Geological Science:Journal of China University of Geosciences,2013,38(4):807-815.
[10] 王毅,宋岩,单家曾.构造应力在油气运聚成藏过程中的作用[J].石油天然气地质,2005,26(5):563-571. Wang Yi,Song Yan, Shan Jiazeng. Action of Tectonic Stress on Hydrocarbon Migration and Accumulation[J].Oil and Geology, 2005,26(5):563-571.
[11] 夏毓亮,郑纪伟,李子颖,等.松辽盆地钱家店铀矿床成矿特征和成矿模式[J].铀矿地质, 2010, 29(增刊):154-155. Xia Yuliang, Zheng Jiwei,Li Ziying,et al. The Characteristics Uranium Deposit Mineralization and Mineralization Mode of Qianjiadian in Songliao Basin[J]. Uranium Geology,2010,29(Sup.):154-155.
[12] 张明瑜,郑纪伟,田时丰,等.开鲁坳陷钱家店铀矿床铀的赋存状态及铀矿形成时代研究[J].铀矿地质, 2005, 21(4):213-218. Zhang Mingyu,Zheng Jiwei, Tian Shifeng,et al. Research on Existing State of Uranium Ore Formation Age at Qianjiadian Uranium Deposit in Kailu Depression[J]. Uranium Geology, 2005, 21(4):213-218.
[13] 罗毅,马汉峰,夏毓亮,等.松辽盆地钱家店铀矿床成矿作用特征及成矿模式龙胜祥[J].铀矿地质,2007,23(4):193-200. Luo Yi,Ma Hanfeng,Xia Yuliang et al. Geologic Characterisitics Matallogenic Model of Qianjiadian Uranium Deposit in Songliao Basin[J]. Uranium Geology,2007,23(4):193-200.
[14] 雷安贵,付永,昝国军,等.开鲁坳陷钱家店地区构造演化与成矿[J].中国矿业,2018, 27(增刊):125-129. Lei Angui,Fu Yong,Zan Guojun, et al. Strctural Evolution and Uranium Mineralization in Qianjiadian Area,Kailu Depression[J]. China Mining Magazing, 2018, 27(Sup.):125-129.
[15] 郑纪伟.开鲁盆地钱家店铀矿床成矿地质条件及勘探潜力分析[J].铀矿地质,2010, 26(4):193-200. Zheng Jiwei. Geological Setting and Exploration Potential of Qianjiadian Uranium Deposit in Kailu Basin[J]. Uranium Geology, 2010, 26(4):193-200.
[16] 宫文杰,张振强,于文斌,等.松辽盆地地浸砂岩型铀成矿铀源分析[J].世界核地质科学,2010,27(1):25-30. Gong Wenjie, Zhang Zhenqiang, Yu Wenbin, et al. Analysis of Uranium Sources in In-Situ Leachable Sandstone-Type Uranium Deposit in Songliao Basin[J]. World Nuclear Geoscience, 2010,27(1):25-30.
[17] 王世亮,昝国军,杨松林,等.钱家店铀矿床沉积特征及其与铀成矿的关系[J].特种油气藏,2014,21(4):73-75. Wang Shiliang,Zan Guojun, Yang Songlin,et al. Sedimentary Features of Uranium Deposit in Qianjiadian and Its Relationship with Uranium Mineralization[J].Special Oil or Gas Reservoirs,2014,21(4):73-75.
[18] 于文斌, 董清水,周连永,等.松辽盆地南部断裂反转构造对砂岩型铀矿成矿的作用[J].铀矿地质,2008,24(4):195-200. Yu Wenbin, Dong Qingshui, Zhou Lianyong,et al. Action of Reversal Fault Structure on Sandstone-Type Uranium Mineralization in the South of Songliao Basin[J]. Uranium Geology,2008,24(4):195-200.
[19] 汤超,司马献章,朱强,等.沉积盆地油气与砂岩型铀矿成矿关系研究[J].地质找矿论丛,2017,32(2):287-294. Tang Chao,Sima Xianzhang, Zhu Qiang, et al. Research on the Relationship Between Oil Gas and Sandstone-Type Uranium Mineralization in Sedimentary Basin[J]. Contributions to Geology and Mineral Resources Research, 2017,32(2):287-294.
[20] 焦养泉,吴立群,荣辉.砂岩型铀矿的双重还原介质模型及其联合控矿机理:兼论大营和钱家店铀矿床[J].地球科学,2018,43(2):459-472. Jiao Yangquan,Wu Liqun,Rong Hui. Model of Inner and Outer Reductive Media Within Uranium Reservoir Sandstone of Sandstone-Type Uranium Depositsand Its Ore-Controlling Mechanism:Case Studies in Daying and Qianjiadian Uranium Deposits[J]. Earth Science, 2018,43(2):459-472.

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